Acceptability of heavy duty nails lot Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Question

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Answer 1

Question

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

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Students have asked these similar questions

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Answer 2

Question

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

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Answer 3

Question

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Question

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

Answer 6

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

Answer 7

Chapter 12, Problem 67AP

a

Summary Introduction

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer 8

a

Expert Solution

Answer to Problem 67AP

α is 0.0803 and β is 0.0028.

Answer 9

a

Expert Solution

Answer 10

a

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

and β=0.0028 are the producers and consumers risk factor respectively. α , represents the probability that a sampling plan might reject the good lot whereas β , represents the probability that a sampling plan might accept the bad lot.

Lot size, N=10,000

Accepted Quality Level (AQL) is 1%

Lot Tolerance Percent Defective (LTPD) is 10%

pο=0.01p1=0.10

α=P{X>c/p=1,n=100}

=P{X>2/θ=1}=0.0803

β=P{X£/p=0.1,n=100}

=P{X£2/θ=10}=0.0028

Hence, α is 0.0803 and β is 0.0028.

Answer 13

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

Answer 14

b

Summary Introduction

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer 15

b

Expert Solution

Answer to Problem 67AP

Sequential sampling plan with two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n

Answer 16

b

Expert Solution

Answer 17

b

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

Computation of two lines

Calculate the values of k, h1 and h2 by using the following formula.

k=log[p2(1− p 1)p1(1− p 2)].....(1)

h1=1k[log(1−αβ)].....(2)

h2=1k[log(1−βα)]......(3)

s=1k[log(1−0.011−0.10)]....(4)

Information known as per the problem

p1=0.01p2=0.10α=0.0803β=0.0028

Now, substitute these values in equation (1) to calculate k as shown below

k=log[p2(1− p 1)p1(1− p 2)]

=log[0.10(1−0.01)0.01(1−0.10)]

=log0.0990.009=log11=1.041

Now, substitute these values in equation (2) to calculate h1 as shown below:

h1=1k[log(1−αβ)]

=11.041[log(1−0.08030.0028)]

=11.041[log(0.91970.0028)]

=0.96(log328.46)=0.96×2.52=2.42

Now, substitute these values in equation (3) to calculate h2 as shown below:

h2=1k[log(1−βα)]

= 10.041[log(1−0.00280.0803)]

=11.041[log( 0.9972 0.0803)]=0.96(log12.42)=0.96×1.095=1.051

Similarly, substitute these values in equation (4) to calculate s as shown below:

s=1k [log(1−0.011−0.10)]

=11.041[log(0.990.90)]

=0.96[log(1.1)]

=0.96×0.0413=0.0397

Calculate the two limit lines by substituting the values of 2.42, 1.051 and 0.0397 in the h1 , h2 and s respectively in the below formulae.

xa=−h1+sn

xt=h2+sn

xa=−2.42+0.0394n

xt=1.051+0.0397n

Hence, the two limit lines are xa=−2.42+0.0394n and xt=1.051+0.0397n .

Answer 20

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

Answer 21

c

Summary Introduction

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer 22

c

Expert Solution

Answer to Problem 67AP

The maximum expected number of items which must be sampled is probably less than 75.

Answer 23

c

Expert Solution

Answer 24

c

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

Given information:

n = 100

c= 2

AQL = 1%

LTPD = 10%

α=0.0803 as = 10000

At p=0 ASN=60.86

At p=0.1 ASN=71.97

At p=0.0397 ASN=66.6

Based on this, the maximum expected number of items which must be sampled is probably less than 75.

Answer 27

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

Answer 28

d

Summary Introduction

Interpretation:

Graphical representation of acceptance and rejection region and check whether sequential sampling plan would recommend acceptance or rejection on or before testing 100^t^h nail.

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer 29

d

Expert Solution

Explanation of Solution

EBK PRODUCTION AND OPERATIONS ANALYSIS, Chapter 12, Problem 67AP

Hence, acceptance would be recommended on 61^s^t nail.

Answer 30

d

Expert Solution

Answer 31

d

Expert Solution

Answer 32

Expert Solution

Answer 33

Ch. 12.1 - Prob. 2P Ch. 12.1 - Prob. 3P Ch. 12.1 - Prob. 4P Ch. 12.1 - Prob. 5P Ch. 12.1 - Prob. 6P Ch. 12.2 - Prob. 7P Ch. 12.2 - Prob. 8P Ch. 12.2 - Prob. 9P Ch. 12.2 - Prob. 10P Ch. 12.2 - Prob. 11P

Acceptability of heavy duty nails lot Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Concept explainers

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Explanation of Solution

Want to see more full solutions like this?

Chapter 12 Solutions

Acceptability of heavy duty nails lot Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Concept explainers

Interpretation: Acceptability of heavy duty nails lot Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Interpretation: Sequential sampling plan Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Interpretation: Maximum value of the expected sample size Concept Introduction: Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Answer to Problem 67AP

Explanation of Solution

Explanation of Solution

Want to see more full solutions like this?

Chapter 12 Solutions

Interpretation:

Acceptability of heavy duty nails lot

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Interpretation:

Sequential sampling plan

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.

Interpretation:

Maximum value of the expected sample size

Concept Introduction:

Normal distribution is the probability function with continuous series. It is bell shaped distribution function where mean, median and mode are same.